Iterative Mechanism of Macrodiolide Formation in the Anticancer Compound Conglobatin.

Chemistry & biology Pub Date : 2015-06-18 DOI:10.1016/j.chembiol.2015.05.010

Yongjun Zhou, Annabel C Murphy, Markiyan Samborskyy, Patricia Prediger, Luiz Carlos Dias, Peter F Leadlay

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引用次数: 60

Abstract

Conglobatin is an unusual C2-symmetrical macrodiolide from the bacterium Streptomyces conglobatus with promising antitumor activity. Insights into the genes and enzymes that govern both the assembly-line production of the conglobatin polyketide and its dimerization are essential to allow rational alterations to be made to the conglobatin structure. We have used a rapid, direct in vitro cloning method to obtain the entire cluster on a 41-kbp fragment, encoding a modular polyketide synthase assembly line. The cloned cluster directs conglobatin biosynthesis in a heterologous host strain. Using a model substrate to mimic the conglobatin monomer, we also show that the conglobatin cyclase/thioesterase acts iteratively, ligating two monomers head-to-tail then re-binding the dimer product and cyclizing it. Incubation of two different monomers with the cyclase produces hybrid dimers and trimers, providing the first evidence that conglobatin analogs may in future become accessible through engineering of the polyketide synthase.

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抗癌化合物组合蛋白中大二烯内酯形成的迭代机制。

组合蛋白是来自组合链霉菌的一种罕见的c2对称大二内酯，具有良好的抗肿瘤活性。对控制组合蛋白聚酮及其二聚化的流水线生产的基因和酶的深入了解对于合理改变组合蛋白的结构是必不可少的。我们使用了一种快速、直接的体外克隆方法，在41 kbp的片段上获得了整个簇，编码了模块化聚酮合成酶装配线。克隆的簇在异源宿主菌株中指导聚合蛋白的生物合成。使用一个模型底物来模拟组合蛋白单体，我们还表明，组合蛋白环化酶/硫酯酶迭代作用，连接两个单体首尾相连，然后重新结合二聚体产物并使其环化。两种不同的单体与环化酶孵育产生杂交二聚体和三聚体，这提供了第一个证据，表明通过聚酮合酶的工程设计，将来可以获得组合蛋白类似物。

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Chemistry & biology 生物-生化与分子生物学

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4-8 weeks